This map illustrates satellite-detected damage and destruction in the Chitral area of Khyber Pakhtunkhwa Province, Pakistan, and located roughly 120 km southwest of the 26 October 2015 earthquake epicenter. Using a Pléiades satellite image acquired 31 October 2015 and a WorldView-2 image acquired 12 August 2015, UNITAR/UNOSAT identified 369 potentially damaged structures. Some areas could not be analyzed because of the cloud coverage on the reference image. This is a preliminary analysis and has not yet been validated in the field. Please send ground feedback to UNITAR/UNOSAT.

This map illustrates satellite-detected areas of flood affected land on the banks of river Indus as detected by Sentinel-1 image acquired 11 August 2015 in Sindh Province, Pakistan. In districts of Naushahro Firoz, Jamshoro, Matiari and Nawab Shah approximately 130,000 hectares of land have been identified as flood affected. It is to note that the identified areas are in close proximity to Mohenjo Daro, a 5000 year old UNESCO world heritage site. Due to sensor limitations, flood waters could be underestimated in urban areas and areas covered with vegetation. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas of flood as seen in Sentinel-1 imagery acquired on 11 August 2015 in northern Sindh state, Pakistan. There is significant flooding along the Indus river banks in Ghotki, Sukkur, Shirakpur, Larkana and Khairpur districts. In the analyzed area about 350,000 hectares of land were found to be flooded. It is likely that flood waters have been systematically underestimated along highly vegetated areas along main river banks and within built-up urban areas because of the special characteristics of the satellite data used. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR-UNOSAT.

This map illustrates satellite-detected areas of flood as detected by Sentinel-1 imagery acquired on 28 July 2015 near Lahore area in Northern Punjab. It is likely that flood waters have been systematically underestimated along highly vegetated areas along main river banks, and within built-up urban areas because of the special characteristics of the satellite data used. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This is "Flood vectors - Sentinel-1 (28 July 2015)" of the Flood analysis for Pakistan which began on 23 July 2015. It includes 4,168 satellite detected water bodies with a spatial extent of 1,655.88 square kilometers derived from the Sentinel-1 image acq...

This is "Flood vectors - Sentinel-1 (27 July 2015)" of the Flood analysis for Pakistan which began on 23 July 2015. It includes 53,744 satellite detected water bodies with a spatial extent of 1,150.74 square kilometers derived from the Sentinel-1 image ac...

This is "Flood vectors - MODIS-Aqua (22 August 2010)" of the Flood analysis for Pakistan which began on 02 August 2010. It includes 968 satellite detected water bodies with a spatial extent of 27,418.61 square kilometers derived from the MODIS-Aqua image ...

This map illustrates satellite-detected areas of flood affected land as detected in a Sentinel-1 image acquired 27 July 2015 in the Mangla area, and in Northern Punjab Province (Pakistan). Some areas along Jhelum River agricultural areas are most likely inundated by floods caused by monsoon rains, and waters in the Mangla Dam basin have increased. Due to sensor limitations, flood waters could be underestimated in urban areas. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas with waters as detected by SENTINEL-1 imagery acquired the 16 September 2014 in Tarind Muhammad Panah area. The Indus and the Panjnad rivers expanded and seem to have inundated some agricultural fields along the Indus River and the Panjnad River in the Punjab Province (Pakistan). This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas with waters as detected by SPOT-6 and TerraSAR-X imagery acquired the 16 September 2014 in Chiniot area along Chenab River, Punjab Province (Pakistan). The Chenab river expanded and seems to have inundated some agricultural fields. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas of flood affected land as detected in a TerraSAR-X image acquired 15 September 2014 in the Multan area, Punjab Province (Pakistan). The area along Chenab River and the agricultural areas west of Multan along Chenab River are most likely inundated by floods caused by monsoon rains. Due to sensor limitations, flood waters could be underestimated in urban areas. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas of flood affected land as detected by LANDSAT-8 imagery acquired 10 September 2014 in Fatehpur-Puran area along Jhelum River, Punjab Province (Pakistan). The agricultural fields along Jehlun River are most likely inundated by floods caused by monsoon rains. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.

This map illustrates satellite-detected areas of flood affected land as detected by LANDSAT-8 imagery acquired 10 September 2014 in Wazirabad area, Punjab Province (Pakistan). The area along Chenab River and agricultural areas northern Wazirabad are most likely inundated by floods caused by monsoon rains. It is likely that flood waters have been systematically underestimated because of the cloud coverage on the image. This analysis has not yet been validated in the field. Please send ground feedback to UNITAR /UNOSAT.